view stem cell therapy presentation
TRANSCRIPT
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Stem Cell Therapeutic Applications in Leukodystrophies
Ali Fatemi, MD
Director of Neurogenetics
Kennedy Krieger Institute
Johns Hopkins Medicine
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Learning Objectives/Outline
• Define stem cells and different cell types
• Review mechanisms of action in cell-based therapy
• Review current clinical trials
• Review potential adverse events
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History of Stem Cell Transplantation
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Defining Stem Cells • Stem cell: unspecialized cell that is capable of
replicating itself but also differentiate into specialized cells.
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Myeloid Derived Stem Cells • Hematopoietic stem cells - CD34+ cells
can give rise to all blood cell types, few controversial reports that under certain conditions in-vitro these cells can become neurons.
• Mesenchymal stem cells can be differentiated to a variety of different tissue cells in-vitro including neurons.
• 50,000 adult and pediatric patients/year worldwide have received bone marrow stem cells.
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Umbilical Cord Blood Derived Stem Cells
Umbilical cord
Verina T et al. Pediatr Neurol 2013
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Neural Stem Cells
• Neural stem cells can be derived from adult and fetal human cadavers.
• Mouse embryonic stem cells can be differentiated to neural stem cells in-vitro.
• Neural stem cells have the ability to become neurons, astrocytes, oligodendrocytes and endothelial cells.
Neurons Oligodendrocytes Astrocytes
NSC
NRP
GRP
OPC
Somatic Stem Cells (Fetal or Adult Tissue)
Embryonic Stem Cells
APC
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Glial Precursor Cells
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iPS Cells Make Viable Mice
From Zhao XY et al. Nature Protocols 5,-963 - 971 (2010)
Tetraploid Complementation Assay
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Using iPSCs to Study Disease (example Rett syndrome)
Dajani R, Journal of Cellular Biochemistry 2013
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Using iPSCs to Study Disease (example Rett syndrome)
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Issues with Reprogrammed Cells
Dajani R, Journal of Cellular Biochemistry 2013
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Learning Objectives/Outline
• Define stem cells and different cell types
• Review mechanisms of action in cell-based therapy
• Review current clinical trials
• Review potential adverse events
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How Exogenous Cells May Help
1. Integration into existing networks
2. Immunomodulation
3. Neuroprotection by trophic support
4. Cell-Based enzyme and gene delivery
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Nature Reviews Neuroscience 2002, 3; 401
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Integration Example
Human Glial Precursors remyeliante the shiverer
Windrem MS et al. Nat Med 2004
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Martino et al. Nature Reviews Neuroscience 7, 395–406 (May 2006)
Immunomodulatory Effects
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Neural Spheres Migrate and Stimulate Endogenous Stem Cells
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Mesenchymal Stem Cell Injection Improves Outcome in Mice with Neonatal Hypoxia-Ischemia
Cells injected into the brain 3 days after HI
Van Velthoven et al. Brain, Behavior, and Immunity Volume 24, Issue 3, March 2010, Pages 387-393
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Stem Cell-Based Enzyme Delivery
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Stem Cell-Based Gene Delivery
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Glial Precursors Migrate Along the White Matter
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Learning Objectives/Outline
• Define stem cells and different cell types
• Review mechanisms of action in cell-based therapy
• Review current clinical trials
• Review potential adverse events
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Bone Marrow Stem Cell Transplantation
• Has improved outcome in some neurometabolic disease.
• High risk of mortality (5-30%) pending on patient’s age, baseline disease and other factors.
• High morbidity due to chemotherapy and immunosuppressive treatment leading to infections and organ damage.
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Br J Haematol. 2010 Feb; 148 (3):356-72. Epub 2009 Nov 16.
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Cord Blood Nucleated Cell Transplantation in
Neurologic Diseases
• Recently used in neurometabolic diseases
• Associated with lower morbidity and mortality, easier to find a matched donor
• Role of autologous transplantation
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Autologous Cord Blood Transplantation in Cerebral Palsy
• More than 170 children with diagnosis of cerebral palsy have received autologous CB units as compassionate care at Duke University
• Ongoing trial in USA, NCT01072370, Inclusion Criteria:
– 1-12 years of age, placebo-controlled, FU after one year
– Clinical evidence of a non-progressive motor disability due to brain dysfunction. The subjects will not have the ability to sit independently by one year of age or the ability to walk by 18 months of age.
• 2 other studies: Korea (allogeneic + Epo) and Iran (CD133+ autolog)
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Autologous Cord Blood Transplantation in HIE
• Two ongoing trials listed at clinicaltrials.gov: NCT00593242 (Duke Univ. USA)
– Term infants with moderate to severe encephalopathy that missed cooling receive autologous cord blood within first 14 days
– Compared to historical controls
– Outcome will be assessed at 9-12 months
NCT01506258 (Mexico)
– Term infants with HIE within the first 48h of life
– Compared to controls who refuse therapy
– Outcome at one year
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Phase I (Safety) Trial of Neural Stem Cells in USA
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HuNSC Tx in Batten Disease
• In six patients with advanced stages of infantile and late infantile Neuronal Ceroid Lipofuscinosis due to PPT1 deficiency.
• Cells directly transplanted into two different sites in each hemisphere via stereotaxic surgery, three patients got 500mil cells, three got 1bil cells
• Patients immunosuppressed for 12 months
• Monitored for four years, three patients all due to NCL disease progression
• Autopsy no evidence of malignancy
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Evidence of Cell Migration in Autopsy Case
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Learning Objectives/Outline
• Define stem cells and different cell types
• Review mechanisms of action in cell-based therapy
• Review current clinical trials
• Review potential adverse events
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Complications of Hematopoeitic Cell Transplantation
• Acute and chronic graft versus host disease
• Engraftment syndrome
• Veno-occlusive disease
• Idiopathic pulmonary syndrome
• Immunosuppression associated infection
• Side effect of chemotherapeutics (preparative regimen)
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Lessons Learned from Krabbe Disease
the ‘big thing in 2005’
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Long Term Follow Up Study of Same Cohort Published in 2009
• 16 presymptomatic children transplanted at Duke and elsewhere for early infantile Krabbe disease
• Two died
• All others spastic – three mild
• Five required gastostomies
• All were below 3% with height and weight
• All have abnormal expressive language
• 50% walk with assistive devices
• 25% don’t walk Duffner P et al. Genetics in Medicine (2009) 11, 450
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Summary • Currently ongoing cell based therapy for a number of
neurometabolic conditions.
• Advanced cell engineering methods open the door to new therapeutic approaches.
• Expect to have many more trials to come within the next 5-10 years.
• Not all patients will be ideal candidates.
• Stem cell therapy can be harmful, very dangerous complications including death.
• Need for careful investigations to determine who will benefit and in whom it may be harmful.
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Acknowledgment KENNEDY KRIEGER
Neuroscience Lab
Michael Porambo
Joel Marx
Sina Falahati
Katharina Goral
Markus Breu
Markus Bulow
Martin Schaffhauser
Romy Sweda
Dominik Reisinger
Andre W. Phillips, PhD
Mary Ann Wilson, PhD
Mary Blue, PhD
Shilpa Kadam, PhD
Anne Comi, MD
Edward Ahn, MD
Michael V. Johnston, MD
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Acknowledgment
KENNEDY KRIEGER
Neurogenetics
Ann Moser
Paul Watkins, MD, PhD
Sakkubai Naidu, MD
Kathleen Zackowski, PhD
Katy Gibbons
Kim Hollandsworth
Phelps Center for CP
Alec Hoon, MD
HOPKINS
Neurology
Jeffrey Rothstein, MD, PhD
Rita Sattler, PhD
Irina Schatz
Radiology
Jiangyang Zhang, PhD
Michael McMahon, PhD
Susumu Mori, PhD
Piotr Walczak, MD
Andrea Poretti, MD
Thierry Huisman, MD
Pediatrics
Sujatha Kannan, MD
Frances Northington, MD, PhD
Wilmer Eye Institute
R. Kannan, PhD
Massachusetts General Hospital
Florian Eichler, MD
Jorg Dietrich, MD, PhD
Vanderbilt University
Seth Smith, PhD
University of Minnesota
Gerald V. Raymond, MD
Funding Sources NINDS-K08 Child Neurology Foundation Miracle for Megan Foundation Acorda Therapeutics, Inc. GSF Capital, Inc.